X-Ray Detection of the Galaxy's Missing Baryons in the Circum-Galactic Medium of L* Galaxies

Abstract

The amount of baryons hosted in the disks of galaxies is lower than expected based on the mass of their dark-matter halos and the fraction of baryon-to-total matter in the universe, giving rise to the so called galaxy missing-baryon problem. The presence of cool circum-galactic matter gravitationally bound to its galaxy's halo up to distances of at least ten times the size of the galaxy's disk, mitigates the problem but is far from being sufficient for its solution. It has instead been suggested, that the galaxy missing baryons may hide in a much hotter gaseous phase of the circum-galactic medium, possibly near the halo virial temperature and co-existing with the cool phase. Here we exploit the best available X-ray spectra of known cool circum-galactic absorbers of L* galaxies to report the first direct high-statistical-significance (best estimates ranging from 4.2-5.6σ, depending on fitting methodology) detection of associated OVII absorption in the stacked XMM and Chandra spectra of three quasars. We show that these absorbers trace hot medium in the X-ray halo of these systems, at logT(in k) 5.8-6.3 K (comprising the halo virial temperature Tvir 106 K). We estimate masses of the X-ray halo within 1 virial radius within the interval Mhot-CGM (1-1.7)× 1011 (Z/0.3 Z)-1 M. For these systems, this corresponds to galaxy missing baryon fractions in the range b = Mhot-CGM/Mmissing (0.7-1.2) (Z/0.3 Z)-1, thus potentially closing the galaxy baryon census in typical L* galaxies. Our measurements contribute significantly to the solution of the long-standing galaxy missing baryon problem and to the understanding of the continuous cycle of baryons in-and-out of galaxies throughout the life of the universe.